From 8b45d02f8f861fe0eab071ccbfcf5ef8bd6593d6 Mon Sep 17 00:00:00 2001 From: dos-reis Date: Tue, 21 Jun 2011 18:51:36 +0000 Subject: 1 * interp/Makefile.in (OBJS): Remove foam_l.$(FASLEXT), $(ASCOMP). (ASCOMP, ASAUTO): Remove. * interp/axext_l.lisp: Remove. * interp/foam_l.lisp: Likewise. * interp/ax.boot: Likewise. * interp/as.boot: Likewise. * interp/daase.lisp: Adjust. * interp/i-syscmd.boot: Likewise. --- src/interp/foam_l.lisp | 842 ------------------------------------------------- 1 file changed, 842 deletions(-) delete mode 100644 src/interp/foam_l.lisp (limited to 'src/interp/foam_l.lisp') diff --git a/src/interp/foam_l.lisp b/src/interp/foam_l.lisp deleted file mode 100644 index d2ca464c..00000000 --- a/src/interp/foam_l.lisp +++ /dev/null @@ -1,842 +0,0 @@ -;; Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd. -;; All rights reserved. -;; Copyright (C) 2007-2011, Gabriel Dos Reis. -;; All rights reserved. -;; -;; Redistribution and use in source and binary forms, with or without -;; modification, are permitted provided that the following conditions are -;; met: -;; -;; - Redistributions of source code must retain the above copyright -;; notice, this list of conditions and the following disclaimer. -;; -;; - Redistributions in binary form must reproduce the above copyright -;; notice, this list of conditions and the following disclaimer in -;; the documentation and/or other materials provided with the -;; distribution. -;; -;; - Neither the name of The Numerical ALgorithms Group Ltd. nor the -;; names of its contributors may be used to endorse or promote products -;; derived from this software without specific prior written permission. -;; -;; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS -;; IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED -;; TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -;; PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER -;; OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -;; EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, -;; PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR -;; PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF -;; LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING -;; NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS -;; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - - -;; -;; FOAM is the intermediate language for the aldor compiler. FOAM -;; means "first order abstract machine" and functions similar to -;; RTL for the GCC compiler. It is a "machine" that is used as the -;; target for meta-assembler level statments. These are eventually -;; expanded for the real target machine (or interpreted directly) -;; - -;;; -;;; FOAM Operations for Common Lisp -;;; - -;; -;; Client files should begin with -;; (in-package "FOAM-USER" :use '("FOAM" "LISP")) -;; -;; -;; To Do: -;; Test cases. -;; Scan and format functions need to be rewritten to handle complete syntax. -;; Deftypes for each Foam type? -;; - -#+:common-lisp (in-package "COMMON-LISP-USER") -#-:common-lisp (in-package "USER") - -(defpackage "FOAM" - #+:common-lisp (:use "COMMON-LISP") - #-:common-lisp (:use "LISP")) - - -;; FOAM-USER is the package containing foam statements and macros -;; that get inserted into user code versus the foam package which -;; provides support for compiler code. - -(defpackage "FOAM-USER" - #+:common-lisp (:use "COMMON-LISP") - #-:common-lisp (:use "LISP") - (:use "FOAM")) - -#+:gcl (in-package "BOOT") -(in-package "AxiomCore") -(import-module "vmlisp") -(import-module "sys-constants") - -(in-package "FOAM") - -(export '( - compile-as-file cases - - |Clos| |Char| |Bool| |Byte| |HInt| |SInt| |BInt| |DFlo| |Ptr| - |Word| |Arb| |Env| |Level| |Arr| |Record| |Nil| - - |ClosInit| |CharInit| |BoolInit| |ByteInit| |HIntInit| |SIntInit| - |BIntInit| |DFloInit| |PtrInit| |WordInit| |ArbInit| |EnvInit| - |ArrInit| |RecordInit| |LevelInit| - - |BoolFalse| |BoolTrue| |BoolNot| |BoolAnd| |BoolOr| |BoolEQ| |BoolNE| - - |CharSpace| |CharNewline| |CharMin| |CharMax| |CharIsDigit| - |CharIsLetter| |CharEQ| |CharNE| |CharLT| |CharLE| - |CharLower| |CharUpper| |CharOrd| |CharNum| |CharCode0| - - |DFlo0| |DFlo1| |DFloMin| |DFloMax| |DFloEpsilon| - |DFloIsZero| |DFloIsNeg| |DFloIsPos| |DFloEQ| |DFloNE| - |DFloLT| |DFloLE| |DFloNegate| |DFloPrev| |DFloNext| - |DFloPlus| |DFloMinus| |DFloTimes| |DFloTimesPlus| - |DFloDivide| |DFloRPlus| |DFloRMinus| |DFloRTimes| - |DFloRTimesPlus| |DFloRDivide| |DFloDissemble| - |DFloAssemble| |Byte0| |Byte1| |ByteMin| |ByteMax| - - |HInt0| |HInt1| |HIntMin| |HIntMax| - - |SInt0| |SInt1| |SIntMin| |SIntMax| |SIntIsZero| |SIntIsNeg| - |SIntIsPos| |SIntIsEven| |SIntIsOdd| |SIntEQ| |SIntNE| - |SIntLT| |SIntLE| |SIntNegate| |SIntPrev| |SIntNext| - |SIntPlus| |SIntMinus| |SIntTimes| |SIntTimesPlus| - |SIntMod| |SIntQuo| |SIntRem| |SIntDivide| |SIntGcd| - |SIntPlusMod| |SIntMinusMod| |SIntTimesMod| - |SIntTimesModInv| |SIntLength| |SIntShiftUp| - |SIntShiftDn| |SIntBit| |SIntNot| |SIntAnd| |SIntOr| - - |WordTimesDouble| |WordDivideDouble| |WordPlusStep| |WordTimesStep| - - |BInt0| |BInt1| |BIntIsZero| |BIntIsNeg| |BIntIsPos| |BIntIsEven| - |BIntIsOdd| |BIntIsSingle| |BIntEQ| |BIntNE| |BIntLT| - |BIntLE| |BIntNegate| |BIntPrev| |BIntNext| |BIntPlus| - |BIntMinus| |BIntTimes| |BIntTimesPlus| |BIntMod| - |BIntQuo| |BIntRem| |BIntDivide| |BIntGcd| - |BIntSIPower| |BIntBIPower| |BIntLength| |BIntShiftUp| - |BIntShiftDn| |BIntBit| - - |PtrNil| |PtrIsNil| |PtrMagicEQ| |PtrEQ| |PtrNE| - - |FormatDFlo| |FormatSInt| |FormatBInt| - |fgetss| |fputss| - - |ScanDFlo| |ScanSInt| |ScanBInt| - - |ByteToSInt| |SIntToByte| |HIntToSInt| - |SIntToHInt| |SIntToBInt| |BIntToSInt| - |SIntToDFlo| |BIntToDFlo| |PtrToSInt| - |SIntToPtr| |BoolToSInt| - - |ArrToDFlo| |ArrToSInt| |ArrToBInt| - - |PlatformRTE| |PlatformOS| |Halt| - - |Clos| |CCall| |ClosEnv| |ClosFun| |SetClosEnv| |SetClosFun| - |DDecl| |RNew| |ANew| |RElt| |EElt| |AElt| |Lex| - |SetLex| |SetRElt| |SetAElt| |SetEElt| - |FoamFree| - - declare-prog declare-type - defprog ignore-var block-return - defspecials file-exports file-imports - typed-let foamfn |FoamProg| |alloc-prog-info| - - |MakeEnv| |EnvLevel| |EnvNext| |EnvInfo| |SetEnvInfo| |FoamEnvEnsure| - |MakeLit| |MakeLevel| - |printNewLine| |printChar| |printString| |printSInt| |printBInt| - |printDFloat| - |strLength| |formatSInt| |formatBInt| |formatDFloat| - - |ProgHashCode| |SetProgHashCode| |ProgFun| - |G-mainArgc| |G-mainArgv| - |stdinFile| |stdoutFile| |stderrFile| - |fputc| |fputs| |foamfun| - - - ;; trancendental functions - |sqrt| |pow| |log| |exp| |sin| |cos| |tan| |sinh| |cosh| |tanh| - |asin| |acos| |atan| |atan2| - - ;; debuging - |fiSetDebugVar| |fiGetDebugVar| |fiSetDebugger| |fiGetDebugger| - ;; Blatent hacks.. - |G-stdoutVar| |G-stdinVar| |G-stderrVar| - |fiStrHash| - - axiomxl-file-init-name - axiomxl-global-name -)) - - -;; type defs for Foam types -(deftype |Char| () 'BOOT::|%Char|) -(deftype |Clos| () 'list) -(deftype |Bool| () '(member t nil)) -(deftype |Byte| () 'BOOT::|%Byte|) -(deftype |HInt| () '(integer #.(- (expt 2 15)) #.(1- (expt 2 15)))) -(deftype |SInt| () 'BOOT::|%Short|) - -(deftype |BInt| () 'BOOT::|%Integer|) - -(deftype |DFlo| () 'BOOT::|%DoubleFloat|) - -(deftype |Level| () t) ;; structure?? - -(deftype |Nil| () t) -(deftype |Ptr| () t) -(deftype |Word| () t) -(deftype |Arr| () t) -(deftype |Record| () t) -(deftype |Arb| () t) -(deftype |Env| () t) ; (or cons nil) - -;; default values for types. Used as initializers in lets. -(defconstant |CharInit| (the |Char| '#\Space)) -(defconstant |ClosInit| (the |Clos| nil)) -(defconstant |BoolInit| (the |Bool| nil)) -(defconstant |ByteInit| (the |Byte| 0)) -(defconstant |HIntInit| (the |HInt| 0)) -(defconstant |SIntInit| (the |SInt| 0)) -(defconstant |BIntInit| (the |BInt| 0)) -(defconstant |DFloInit| (coerce 0 '|DFlo|)) -(defconstant |PtrInit| (the |Ptr| nil)) -(defconstant |ArrInit| (the |Arr| nil)) -(defconstant |RecordInit| (the |Record| nil)) -(defconstant |WordInit| (the |Word| nil)) -(defconstant |ArbInit| (the |Arb| nil)) -(defconstant |EnvInit| (the |Env| nil)) -(defconstant |LevelInit| (the |Level| nil)) - -;; Bool values are assumed to be either 'T or NIL. -;; Thus non-nil values are canonically represented. -(defmacro |BoolFalse| () NIL) -(defmacro |BoolTrue| () 'T) -(defmacro |BoolNot| (x) `(NOT ,x)) -(defmacro |BoolAnd| (x y) - `(let ((xx ,x) (yy ,y)) (AND xx yy))) ;; force evaluation of both args -(defmacro |BoolOr| (x y) - `(let ((xx ,x) (yy ,y)) (OR xx yy))) ;; force evaluation of both args -(defmacro |BoolEQ| (x y) `(EQ ,x ,y)) -(defmacro |BoolNE| (x y) `(NOT (|BoolEQ| ,x ,y))) - -(defconstant |CharCode0| (code-char 0)) - -(defmacro |CharSpace| () '#\Space) -(defmacro |CharNewline| () '#\Newline) -(defmacro |CharMin| () |CharCode0|) -(defmacro |CharMax| () #.(code-char (1- char-code-limit))) -(defmacro |CharIsDigit| (x) `(if (DIGIT-CHAR-P (the |Char| ,x)) 't nil)) -(defmacro |CharIsLetter|(x) `(ALPHA-CHAR-P (the |Char| ,x))) -(defmacro |CharLT| (x y) `(CHAR< (the |Char| ,x) (the |Char| ,y))) -(defmacro |CharLE| (x y) `(CHAR<= (the |Char| ,x) (the |Char| ,y))) -(defmacro |CharEQ| (x y) `(CHAR= (the |Char| ,x) (the |Char| ,y))) -(defmacro |CharNE| (x y) `(CHAR/= (the |Char| ,x) (the |Char| ,y))) -(defmacro |CharLower| (x) `(the |Char| (CHAR-DOWNCASE (the |Char| ,x)))) -(defmacro |CharUpper| (x) `(the |Char| (CHAR-UPCASE (the |Char| ,x)))) -(defmacro |CharOrd| (x) `(CHAR-INT (the |Char| ,x))) -(defmacro |CharNum| (x) `(INT-CHAR (the |SInt| ,x))) - -(defmacro |DFlo0| () (coerce 0 '|DFlo|)) -(defmacro |DFlo1| () (coerce 1 '|DFlo|)) -(defmacro |DFloMin| () BOOT::|$DoubleFloatMinimum|) -(defmacro |DFloMax| () BOOT::|$DoubleFloatMaximum|) -(defmacro |DFloEpsilon| () BOOT::|$DoubleFloatEpsilon|) -(defmacro |DFloIsZero| (x) `(zerop (the |DFlo| ,x))) -(defmacro |DFloIsNeg| (x) `(minusp (the |DFlo| ,x))) -(defmacro |DFloIsPos| (x) `(plusp (the |DFlo| ,x))) -(defmacro |DFloLE| (x y) `(<= (the |DFlo| ,x) (the |DFlo| ,y))) -(defmacro |DFloEQ| (x y) `(= (the |DFlo| ,x) (the |DFlo| ,y))) -(defmacro |DFloLT| (x y) `(< (the |DFlo| ,x) (the |DFlo| ,y))) -(defmacro |DFloNE| (x y) `(/= (the |DFlo| ,x) (the |DFlo| ,y))) -(defmacro |DFloNegate| (x) `(the |DFlo| (- (the |DFlo| ,x)))) -(defmacro |DFloNext| (x) `(the |DFlo| (+ (the |DFlo| ,x) |DFlo1|))) -(defmacro |DFloPrev| (x) `(the |DFlo| (- (the |DFlo| ,x) |DFlo1|))) -(defmacro |DFloPlus| (x y) `(the |DFlo| (+ (the |DFlo| ,x) (the |DFlo| ,y)))) -(defmacro |DFloMinus| (x y) `(the |DFlo| (- (the |DFlo| ,x) (the |DFlo| ,y)))) -(defmacro |DFloTimes| (x y) `(the |DFlo| (* (the |DFlo| ,x) (the |DFlo| ,y)))) -(defmacro |DFloDivide| (x y) `(the |DFlo| (/ (the |DFlo| ,x) (the |DFlo| ,y)))) -(defmacro |DFloTimesPlus| (x y z) - `(the |DFlo| (+ (* (the |DFlo| ,x) (the |DFlo| ,y)) (the |DFlo| ,z)))) - -(defmacro |DFloRPlus| (x y r) `(error "unimplemented operation -- DFloRPlus")) -(defmacro |DFloRMinus| (x y r) `(error "unimplemented operation -- DFloRTimes")) -(defmacro |DFloRTimes| (x y r) `(error "unimplemented operation -- DFloRTimes")) -(defmacro |DFloRTimesPlus| (x y z r) `(error "unimplemented operation -- DFloTimesPlus")) -(defmacro |DFloRDivide|(x y r) `(error "unimplemented operation -- DFloDivide")) - -(defmacro |DFloDissemble| (x) `(error "unimplemented operation -- DFloDissemble")) -(defmacro |DFloAssemble| (w x y z) `(error "unimplemented operation -- DFloAssemble")) - -;; Not builtins anymore -;;(defmacro |DFloRound| (x) `(the |BInt| (round (the |DFlo| ,x)))) -;;(defmacro |DFloTruncate| (x) `(the |BInt| (truncate (the |DFlo| ,x)))) -;;(defmacro |DFloFloor| (x) `(the |BInt| (floor (the |DFlo| ,x)))) -;;(defmacro |DFloCeiling| (x) `(the |BInt| (ceiling (the |DFlo| ,x)))) - -(defmacro |Byte0| () 0) -(defmacro |Byte1| () 1) -(defmacro |ByteMin| () 0) -(defmacro |ByteMax| () 255) - -(defmacro |HInt0| () 0) -(defmacro |HInt1| () 1) -(defmacro |HIntMin| () #.(- (expt 2 15))) -(defmacro |HIntMax| () #.(1- (expt 2 15))) - -(defmacro |SInt0| () 0) -(defmacro |SInt1| () 1) -(defmacro |SIntMin| () `(the |SInt| BOOT::|$ShortMinimum|)) -(defmacro |SIntMax| () `(the |SInt| BOOT::|$ShortMaximum|)) -(defmacro |SIntIsZero| (x) `(zerop (the |SInt| ,x))) -(defmacro |SIntIsNeg| (x) `(minusp (the |SInt| ,x))) -(defmacro |SIntIsPos| (x) `(plusp (the |SInt| ,x))) -(defmacro |SIntIsEven| (x) `(evenp (the |SInt| ,x))) -(defmacro |SIntIsOdd| (x) `(oddp (the |SInt| ,x))) -(defmacro |SIntLE| (x y) `(<= (the |SInt| ,x) (the |SInt| ,y))) -(defmacro |SIntEQ| (x y) `(= (the |SInt| ,x) (the |SInt| ,y))) -(defmacro |SIntLT| (x y) `(< (the |SInt| ,x) (the |SInt| ,y))) -(defmacro |SIntNE| (x y) `(/= (the |SInt| ,x) (the |SInt| ,y))) -(defmacro |SIntNegate| (x) `(the |SInt| (- (the |SInt| ,x)))) -(defmacro |SIntPrev| (x) `(the |SInt| (1- (the |SInt| ,x)))) -(defmacro |SIntNext| (x) `(the |SInt| (1+ (the |SInt| ,x)))) -(defmacro |SIntPlus| (x y) `(the |SInt| (+ (the |SInt| ,x) (the |SInt| ,y)))) -(defmacro |SIntMinus| (x y) `(the |SInt| (- (the |SInt| ,x) (the |SInt| ,y)))) -(defmacro |SIntTimes| (x y) `(the |SInt| (* (the |SInt| ,x) (the |SInt| ,y)))) -(defmacro |SIntTimesPlus| (x y z) - `(the |SInt| (+ (* (the |SInt| ,x) (the |SInt| ,y)) (the |SInt| ,z)))) -(defmacro |SIntMod| (x y) `(the |SInt| (mod(the |SInt| ,x)(the |SInt| ,y)))) -(defmacro |SIntQuo| (x y) - `(the |SInt| (values (truncate (the |SInt| ,x) (the |SInt| ,y))))) -(defmacro |SIntRem| (x y) `(the |SInt| (rem(the |SInt| ,x)(the |SInt| ,y)))) -;;! declare all let variables -(defmacro |SIntDivide| (x y) `(truncate (the |SInt| ,x) (the |SInt| ,y))) -(defmacro |SIntGcd| (x y) `(the |SInt| (gcd (the |SInt| ,x) (the |SInt| ,y)))) - -(defmacro |SIntPlusMod| (a b c) - `(the |SInt| (mod (+ (the |SInt| ,a) (the |SInt| ,b)) (the |SInt| ,c)))) -(defmacro |SIntMinusMod| (a b c) - `(the |SInt| (mod (- (the |SInt| ,a) (the |SInt| ,b)) (the |SInt| ,c)))) -(defmacro |SIntTimesMod| (a b c) - `(the |SInt| (mod (* (the |SInt| ,a) (the |SInt| ,b)) (the |SInt| ,c)))) -;; |SIntTimesModInv| -(defmacro |SIntLength| (x) `(the |SInt| (integer-length (the |SInt| ,x)))) -(defmacro |SIntShiftUp| (x y) `(the |SInt| (ash (the |SInt| ,x) (the |SInt| ,y)))) -(defmacro |SIntShiftDn| (x y) `(the |SInt| (ash (the |SInt| ,x) (the |SInt| (- (the |SInt| ,y)))))) - -(defmacro |SIntBit| (x i) - `(let ((xx ,x) (ii ,i)) (declare (type |SInt| xx ii)) (logbitp ii xx))) -(defmacro |SIntNot| (a) `(the |SInt| (lognot (the |SInt| ,a)))) -(defmacro |SIntAnd| (a b) - `(the |SInt| (logand (the |SInt| ,a) (the |SInt| ,b)))) -(defmacro |SIntOr| (a b) - `(the |SInt| (logior (the |SInt| ,a) (the |SInt| ,b)))) - -;; WordTimesDouble -;; WordDivideDouble -;; WordPlusStep -;; WordTimesStep - -(defmacro |SIntSIPower| (x y) - `(let ((xx ,x) (yy ,y)) - (declare (type |SInt| xx yy)) - (if (minusp yy) (error "cannot raise integers to negative powers") - (the |SInt| (expt xx yy))))) -(defmacro |SIntBIPower| (x y) - `(let ((xx ,x) (yy ,y)) - (declare (type |SInt| xx)) - (declare (type |BInt| yy)) - (if (minusp yy) (error "cannot raise integers to negative powers") - (the |SInt| (expt xx yy))))) - -(defmacro |BInt0| () 0) -(defmacro |BInt1| () 1) -(defmacro |BIntIsZero| (x) `(zerop (the |BInt| ,x))) -(defmacro |BIntIsNeg| (x) `(minusp(the |BInt| ,x))) -(defmacro |BIntIsPos| (x) `(plusp (the |BInt| ,x))) -(defmacro |BIntIsEven| (x) `(evenp (the |BInt| ,x))) -(defmacro |BIntIsOdd| (x) `(oddp (the |BInt| ,x))) -(defmacro |BIntIsSingle| (x) `(typep ,x '|SInt|)) -(defmacro |BIntLE| (x y) `(<= (the |BInt| ,x) (the |BInt| ,y))) -(defmacro |BIntEQ| (x y) `(= (the |BInt| ,x) (the |BInt| ,y))) -(defmacro |BIntLT| (x y) `(< (the |BInt| ,x) (the |BInt| ,y))) -(defmacro |BIntNE| (x y) `(/= (the |BInt| ,x) (the |BInt| ,y))) -(defmacro |BIntNegate| (x) `(the |BInt| (- (the |BInt| ,x)))) -(defmacro |BIntPrev| (x) `(the |BInt| (1- (the |BInt| ,x)))) -(defmacro |BIntNext| (x) `(the |BInt| (1+ (the |BInt| ,x)))) -(defmacro |BIntPlus| (x y) `(the |BInt| (+ (the |BInt| ,x) (the |BInt| ,y)))) -(defmacro |BIntMinus| (x y) `(the |BInt| (- (the |BInt| ,x) (the |BInt| ,y)))) -(defmacro |BIntTimes| (x y) `(the |BInt| (* (the |BInt| ,x) (the |BInt| ,y)))) -(defmacro |BIntTimesPlus| (x y z) - `(the |BInt| (+ (* (the |BInt| ,x) (the |BInt| ,y)) (the |BInt| ,z)))) -(defmacro |BIntMod| (x y) `(the |BInt| (mod(the |BInt| ,x)(the |BInt| ,y)))) -(defmacro |BIntQuo| (x y) - `(the |BInt| (values (truncate (the |BInt| ,x) (the |BInt| ,y))))) -(defmacro |BIntRem| (x y) - `(the |BInt| (rem (the |BInt| ,x) (the |BInt| ,y)))) -(defmacro |BIntDivide| (x y) `(truncate (the |BInt| ,x) (the |BInt| ,y))) -(defmacro |BIntGcd| (x y) - `(the |BInt| (gcd (the |BInt| ,x) (the |BInt| ,y)))) -(defmacro |BIntSIPower| (x y) - `(let ((xx ,x) (yy ,y)) - (declare (type |BInt| xx)) - (declare (type |SInt| yy)) - (if (minusp yy) (error "cannot raise integers to negative powers") - (the |BInt| (expt xx yy))))) -(defmacro |BIntBIPower| (x y) - `(let ((xx ,x) (yy ,y)) - (declare (type |BInt| xx)) - (declare (type |BInt| yy)) - (if (minusp yy) (error "cannot raise integers to negative powers") - (the |BInt| (expt xx yy))))) -(defmacro |BIntLength| (x) `(the |SInt| (integer-length (the |BInt| ,x)))) -(defmacro |BIntShiftUp| (x y) `(the |BInt| (ash (the |BInt| ,x)(the |SInt| ,y)))) -(defmacro |BIntShiftDn| (x y) `(the |BInt| (ash (the |BInt| ,x) (the |SInt| (- (the |SInt| ,y)))))) - -(defmacro |BIntBit| (x i) - `(let ((xx ,x) (ii ,i)) (declare (type |BInt| xx) (type |SInt| ii)) - (logbitp ii xx))) -;;(defmacro |BIntAbs| (x) `(the |BInt| (abs (the |BInt| ,x)))) - -(defmacro |PtrNil| () ()) -(defmacro |PtrIsNil| (x) `(NULL ,x)) -(defmacro |PtrEQ| (x y) `(eq ,x ,y)) -(defmacro |PtrNE| (x y) `(not (eq ,x ,y))) - -;; |WordTimesDouble| |WordDivideDouble| |WordPlusStep| |WordTimesStep| - - -;;(defvar |FoamOutputString| -;; (make-array 80 :element-type 'string-char :adjustable t :fill-pointer 0)) -(defun |FormatNumber| (c arr i) - (let ((str (format nil "~a" c))) - (replace arr str :start1 i) -;; (incf i (fill-pointer |FoamOutputString|)) -;; (if (> i (length arr)) (error "not enough space")) -;; (setf (fill-pointer |FoamOutputString|) 0) - (+ i (length str)))) - -(defmacro |FormatDFlo| (c arr i) `(|FormatNumber| ,c ,arr ,i)) -(defmacro |FormatSInt| (c arr i) `(|FormatNumber| ,c ,arr ,i)) -(defmacro |FormatBInt| (c arr i) `(|FormatNumber| ,c ,arr ,i)) - -(set-syntax-from-char (code-char 0) #\space) ;;makes null char act like white space - -(defmacro |ScanDFlo| (arr i) - `(read-from-string ,arr nil (|DFlo0|) - :start ,i :preserve-whitespace t)) -(defmacro |ScanSInt| (arr i) - `(parse-integer ,arr :start ,i :junk-allowed t)) -(defmacro |ScanBInt| (arr i) - `(parse-integer ,arr :start ,i :junk-allowed t)) - -;; 18/8/93: Evil bug in genfoam---nil generated. -(defmacro hacked-the (type x) - (if x `(the ,type ,x) `(the ,type 0))) - -(defmacro |ByteToSInt| (x) `(coerce (hacked-the |Byte| ,x) '|SInt|)) -(defmacro |BoolToSInt| (x) `(if ,x 1 0)) -(defmacro |BIntToSInt| (x) `(hacked-the |SInt| ,x)) -(defmacro |SIntToBInt| (x) `(hacked-the |BInt| ,x)) -(defmacro |SIntToByte| (x) `(coerce (hacked-the |SInt| ,x) '|Byte|)) -(defmacro |SIntToHInt| (x) `(coerce (hacked-the |SInt| ,x) '|HInt|)) -(defmacro |SIntToDFlo| (x) `(coerce (hacked-the |SInt| ,x) '|DFlo|)) -(defmacro |BIntToDFlo| (x) `(coerce (hacked-the |BInt| ,x) '|DFlo|)) -(defmacro |ArrToDFlo| (x) `(read-from-string ,x nil (|DFlo0|))) -(defmacro |ArrToSInt| (x) `(read-from-string ,x nil (|SInt0|))) -(defmacro |ArrToBInt| (x) `(read-from-string ,x nil (|BInt0|))) - -(defmacro |Clos| (x y) `(let ((xx ,x) (yy #',y)) (cons yy xx))) -(defmacro |ClosFun| (x) `(car ,x)) -(defmacro |ClosEnv| (x) `(cdr ,x)) -(defmacro |SetClosFun| (x y) `(rplaca ,x ,y)) -(defmacro |SetClosEnv| (x y) `(rplacd ,x ,y)) - -(defmacro |MakeEnv| (x y) - `(let ((xx ,x) (yy ,y)) (cons yy (cons xx nil)))) - -(defmacro |EnvLevel| (x) `(car ,x)) -(defmacro |EnvNext| (x) `(cadr ,x)) -(defmacro |EnvInfo| (x) `(if (and (consp ,x) (consp (cdr ,x))) - (cddr ,x) nil)) -(defmacro |SetEnvInfo| (x val) `(rplacd (cdr ,x) ,val)) - -(defmacro |FoamEnvEnsure| (e) - `(if (|EnvInfo| ,e) (|CCall| (|EnvInfo| ,e)) nil)) - -(defconstant null-char-string (string (code-char 0))) -(defmacro |MakeLit| (s) `(concatenate 'string ,s null-char-string)) - -;; functions are represented by symbols, with the symbol-value being some -;; information, and the symbol-function is the function itself. -;; 1-valued lisp should represent progs as either a pair or defstruct. - -(defmacro |FunProg| (x) x) - -(defstruct FoamProgInfoStruct - (funcall nil :type function) - (hashval 0 :type |SInt|)) - -(defun |ProgHashCode| (x) - (let ((aa (foam-function-info x))) - (if (null aa) 0 - (FoamProgInfoStruct-hashval aa)))) - -(defun |SetProgHashCode| (x y) - (let ((aa (foam-function-info x))) - (if (null aa) 0 - (setf (FoamProgInfoStruct-hashval aa) y)))) - -;; In a hurry -> O(n) lookup.. -(defvar foam-function-list ()) - -(defun alloc-prog-info (fun val) - (setq foam-function-list (cons (cons fun val) foam-function-list))) - -(defun foam-function-info (fun) - (let ((xx (assoc fun foam-function-list))) - (if (null xx) nil - (cdr xx)))) - -;; Accessors and constructors -(defmacro |DDecl| (name &rest args) - (setf (get name 'struct-args) args) - `(defstruct ,name ,@(insert-types args))) - -(defun insert-types (slots) - (mapcar #'(lambda (slot) - `(,(car slot) ,(type2init (cadr slot)) - :type ,(cadr slot))) - slots)) - -(defmacro |RNew| (name) - (let* ((struct-args (get name 'struct-args)) - (init-args (mapcar #'(lambda (x) (type2init (cadr x))) - struct-args)) - (count (length struct-args))) - (cond ((> count 2) `(vector ,@init-args)) - ((= count 2) `(cons ,@init-args)) - (t `(list ,@init-args))))) - -(defmacro |RElt| (name field index rec) - (let ((count (length (get name 'struct-args)))) - (cond ((> count 2) `(svref ,rec ,index)) - ((= count 2) - (if (zerop index) `(car ,rec) `(cdr ,rec))) - (t `(car ,rec))))) - -(defmacro |SetRElt| (name field index rec val) - (let ((count (length (get name 'struct-args)))) - (cond ((> count 2) `(setf (svref ,rec ,index) ,val)) - ((= count 2) - (if (zerop index) `(rplaca ,rec ,val) `(rplacd ,rec ,val))) - (t `(rplaca ,rec ,val))))) - -(defmacro |AElt| (name index) - `(aref ,name ,index)) - -(defmacro |SetAElt| (name index val) - `(setf (aref ,name ,index) ,val)) - -(defmacro |MakeLevel| (builder struct) - (if (get struct 'struct-args) - `(,builder) - 'nil)) - - -(defmacro |EElt| (accessor n var) - `(,accessor ,var)) - -(defmacro |SetEElt| (accessor n var val) - `(setf (,accessor ,var) ,val)) - -(defmacro |Lex| (accessor n var) - `(,accessor ,var)) - -(defmacro |SetLex| (accessor n var val) - `(progn ;; (print ',accessor) - (setf (,accessor ,var) ,val))) - -;; Atomic arguments for fun don't need a let to hold the fun. -;; CCall's with arguments need a let to hold the prog and the env. -(defmacro |CCall| (fun &rest args) - (cond ((and (atom fun) (null args)) - `(funcall (|FunProg| (|ClosFun| ,fun)) (|ClosEnv| ,fun))) - ((null args) - `(let ((c ,fun)) - (funcall (|FunProg| (|ClosFun| c)) (|ClosEnv| c)))) - ((atom fun) - `(let ((fun (|FunProg| (|ClosFun| ,fun))) - (env (|ClosEnv| ,fun))) - (funcall fun ,@args env))) - (t - `(let ((c ,fun)) - (let ((fun (|FunProg| (|ClosFun| c))) - (env (|ClosEnv| c))) - (funcall fun ,@args env)))))) - -(defmacro |FoamFree| (o) '()) - -;; macros for defining things - -(defmacro declare-prog (name-result params) - `(proclaim '(function ,(car name-result) ,params ,@(cdr name-result)))) - -(defmacro declare-type (name type) - `(proclaim '(type ,name ,type))) - -(defmacro defprog (type temps &rest body) - `(progn (defun ,(caar type) ,(mapcar #'car (cadr type)) - (typed-let ,temps ,@body)) - (alloc-prog-info #',(caar type) (make-FoamProgInfoStruct)))) - -(defmacro defspecials (&rest lst) - `(proclaim '(special ,@lst))) - -(defmacro top-level-define (&rest junk) - `(setq ,@junk)) - -;; Runtime macros - -;; control transfer -(defmacro block-return (obj val) - `(return-from ,obj ,val)) - -(defmacro typed-let (letvars &rest forms) - `(let ,(mapcar #'(lambda (var) - (list (car var) (type2init (cadr var)))) - letvars ) - (declare ,@(mapcar #'(lambda (var) - (list 'type (cadr var) (car var))) - letvars)) - ,@forms)) - -(defmacro cases (&rest junk) - `(case ,@junk)) - - -;;; Boot macros -(defmacro file-exports (lst) - `(eval-when (load eval) - (when (fboundp 'process-export-entry) - (mapcar #'process-export-entry ,lst)) - nil)) - -(defmacro file-imports (lst) - `(eval-when (load eval) - (when (fboundp 'process-import-entry) - (mapcar #'process-import-entry ,lst)) - nil)) - -(defmacro ignore-var (var) - `(declare (ignore ,var))) - -(defmacro |ANew| (type size) - (if (eq type '|Char|) - `(make-string ,size) - `(make-array ,size - :element-type ',type - :initial-element ,(type2init type)))) - -(defun type2init (x) - (cond - ((eq x '|Char|) '|CharInit|) - ((eq x '|Clos|) '|ClosInit|) - ((eq x '|Bool|) '|BoolInit|) - ((eq x '|Byte|) '|ByteInit|) - ((eq x '|HInt|) '|HIntInit|) - ((eq x '|SInt|) '|SIntInit|) - ((eq x '|BInt|) '|BIntInit|) - ((eq x '|DFlo|) '|DFloInit|) - ((eq x '|Ptr|) '|PtrInit|) - ((eq x '|Word|) '|WordInit|) - ((eq x '|Arr|) '|ArrInit|) - ((eq x '|Record|) '|RecordInit|) - ((eq x '|Arb|) '|ArbInit|) - ((eq x '|Env|) '|EnvInit|) - ((eq x '|Level|) '|LevelInit|) - ((eq x '|Nil|) nil) - (t nil))) - -;; opsys interface -(defvar |G-mainArgc| 0) -(defvar |G-mainArgv| (vector)) -(defmacro |stdinFile| () '*standard-input*) -(defmacro |stdoutFile| () '*standard-output*) -(defmacro |stderrFile| () '*error-output*) - -;; Format functions -;needs to stop when it gets a null character -(defun |strLength| (s) - (dotimes (i (length s)) - (let ((c (schar s i))) - (if (char= c |CharCode0|) - (return i)))) - (length s)) - -(defun |formatSInt| (n) (format nil "~D" n)) -(defun |formatBInt| (n) (format nil "~D" n)) -(defun |formatDFloat| (x) (format nil "~G" x)) - - -;; Printing functions -(defun |printNewLine| (cs) (terpri cs)) -(defun |printChar| (cs c) (princ c cs)) - -;needs to stop when it gets a null character -(defun |printString| (cs s) - (dotimes (i (length s)) - (let ((c (schar s i))) - (if (char= c |CharCode0|) - (return i) - (princ c cs))))) - -(defun |printSInt| (cs n) (format cs "~D" n)) -(defun |printBInt| (cs n) (format cs "~D" n)) -(defun |printDFloat| (cs x) (format cs "~G" x)) - -(defun |fputc| (si cs) - (|printChar| cs (code-char si)) - si) - -(defun |fputs| (s cs) - (|printString| cs s)) - -;; read a string into s starting at pos i1, ending at i2 -;; we should probably macro-out cases where args are constant - -;; fill s[i1..i2] with a null terminated string read from -;; the given input stream -(defun |fgetss| (s i1 i2 f) - (labels ((aux (n) - (if (= n i2) - (progn (setf (schar s n) (code-char 0)) - (- n i1)) - (let ((c (read-char f))) - (setf (schar s n) c) - (if (equal c #\newline) - (progn (setf (char s (+ n 1)) (code-char 0)) - (- n i1)) - (aux (+ n 1))))))) - (aux i1))) - -;; write s[i1..i2) to the output stream f -;; stop on any null characters - -(defun |fputss| (s i1 i2 f) - (labels ((aux (n) - (if (= n i2) (- n i1) - (let ((c (schar s n))) - (if (equal (code-char 0) c) - (- n i1) - (progn (princ c f) - (aux (+ n 1)))))))) - (setq i2 (if (minusp i2) (|strLength| s) - (min i2 (|strLength| s)))) - (aux i1))) - -;; function for compiling and loading from lisp - -(defun compile-as-file (file &optional (opts nil)) - (let* ((path (pathname file)) - (name (pathname-name path)) - (dir (pathname-directory path)) - (type (pathname-type path)) - (lpath (make-pathname :name name :type "l")) - (cpath (make-pathname :name name :type "o"))) - (if (null type) - (setq path (make-pathname :directory dir :name name :type "as"))) - (if opts - (system (format nil "axiomxl ~A -Flsp ~A" opts (namestring path))) - (system (format nil "axiomxl -Flsp ~A" (namestring path)))) - (compile-file (namestring lpath)) - (load (namestring cpath)))) - - -;; given the name of a file (a string), return the name of the AXIOM-XL function -;; that initialises the file. -(defun axiomxl-file-init-name (filename) - (intern (format nil "G-~a" (string-downcase filename)) 'foam-user)) - -;; given the name of the file, id name, and hashcode, return the -;; AXIOM-XL identifier for that object - -(defun axiomxl-global-name (file id hashcode) - (intern (format nil "G-~a_~a_~9,'0d" (string-downcase file) id hashcode) 'foam-user)) - -;; double float elementary functions -(defmacro |sqrt| (x) `(sqrt ,x)) -(defmacro |pow| (a b) `(expt ,a ,b)) -(defmacro |log| (a) `(log ,a)) -(defmacro |exp| (a) `(exp ,a)) - -(defmacro |sin| (a) `(sin ,a)) -(defmacro |cos| (a) `(cos ,a)) -(defmacro |tan| (a) `(tan ,a)) - -(defmacro |sinh| (a) `(sinh ,a)) -(defmacro |cosh| (a) `(cosh ,a)) -(defmacro |tanh| (a) `(tanh ,a)) - -(defmacro |asin| (a) `(asin ,a)) -(defmacro |acos| (a) `(acos ,a)) -(defmacro |atan| (a) `(atan ,a)) -(defmacro |atan2| (a b) `(atan ,a ,b)) - -(defun |Halt| (n) - (error (cond ((= n 101) "System Error: Unfortunate use of dependant type") - ((= n 102) "User error: Reached a 'never'") - ((= n 103) "User error: Bad union branch") - ((= n 104) "User error: Assertion failed") - (t (format nil "Unknown halt condition ~a" n))))) -;; debuging -(defvar *foam-debug-var* nil) -(defun |fiGetDebugVar| () *foam-debug-var*) - -(defun |fiSetDebugVar| (x) (setq *foam-debug-var* x)) -(defun |fiSetDebugger| (x y) ()) -(defun |fiGetDebugger| (x) ()) - -;; Output ports -(defvar |G-stdoutVar| t) -(defvar |G-stdinVar| t) -(defvar |G-stderrVar| t) - -;; !! Not portable !! -;; ??? find a better way to get this work correctly and portably. -#+:GCL -(defun |fiStrHash| (x) (boot::|hashString| (subseq x 0 (- (length x) 1)))) - -;; These three functions check that two cons's contain identical entries. -;; We use EQL to test numbers and EQ everywhere else. If the structure -;; of the two items is different, or any elements are different, we -;; return false. -(defmacro |politicallySound| (u v) - `(or (eql ,u ,v) (eq ,u ,v))) - -(defun |PtrMagicEQ| (u v) -;; I find (as-eg4) that these buggers can be numbers - (cond ( (or (NULL u) (NULL v)) nil) - ( (and (ATOM u) (ATOM v)) (eql u v)) - ( (or (ATOM u) (ATOM v)) nil) -;; removed for Aldor integration -;; ( (equal (length u) (length v)) (|magicEq1| u v)) - (t (eq u v) ))) - -(defun |magicEq1| (u v) - (cond ((and (atom u) (atom v)) - (|politicallySound| u v)) - ((or (atom u) (atom v)) - nil) - ((|politicallySound| (car u) (car v)) - (|magicEq1| (cdr u) (cdr v))))) - - -- cgit v1.2.3